Trans-epithelial migration is essential for neutrophil activation during RSV infection

AbstractThe recruitment of neutrophils to the infected airway occurs early following respiratory syncytial virus (RSV) infection and high numbers of activated neutrophils in airway and blood is associated with the development of severe disease. Here, we investigated whether trans-epithelial migration across primary human airway epithelial cells (AECs) is sufficient and necessary for neutrophil activation during RSV infection. Using flow cytometry, we identified three populations of neutrophils in our in vitro model; those in suspension in basolateral and apical compartments and those that migrated and adhered to AECs. After 1h incubation, the number of adherent neutrophils was significantly greater following RSV infection compared to mock infected. We found that, when migration occurred, neutrophil expression of CD11b, CD62L, CD64, NE and MPO increased in all compartments. However, this did not occur when neutrophils were prevented from migrating. This suggests that the heightened neutrophil activation we detected in the basolateral compartment may be due to reverse migrating neutrophils, as has been suggested by clinical observations. Using live-cell fluorescent microscopy, we then profiled the early temporal and spatial movement and adherence of human neutrophils during migration. Our findings suggest three main phases of early neutrophil recruitment and behaviour in the airways during RSV infection, with neutrophil recruitment, activation and adherence to RSV infected AECs, with clustering, occurring within the first 20 minutes. This work and the model we developed could provide new insight into how neutrophil activation and a dysregulated neutrophil response to RSV mediates disease severity.Graphical AbstractBuilding on previous work of neutrophil function we propose 3 main phases of early neutrophil recruitment and behaviour in the airways during RSV infection. Phase 1. Initial chemotaxis and adherence: Here unstimulated circulating neutrophils expressing baseline levels of CD11b migrate across infected AECs in response to chemotactic signals in the apical supernatant. Some neutrophils remain adherent to the infected AECs. Phase 2: Activation and reverse migration: once on the apical side of the epithelium, neutrophils increase expression of CD11b and other activation associated markers, and some ‘activated’ neutrophils undergo reverse migration. Neutrophils with greater expression of CD11b are detected on the basolateral side Phase 3: Amplified chemotaxis and clustering: after 20 minutes, adherent neutrophils begin to rapidly cluster on RSV infected primary airway epithelial cells cultures, mediated by signalling from a dying neutrophil. Drawing created using BioRender.com.